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    CALCULATING POWER DISSIPATION Search Results

    CALCULATING POWER DISSIPATION Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    MGN1S1208MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-8V GAN Visit Murata Manufacturing Co Ltd
    MGN1D120603MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-6/-3V GAN Visit Murata Manufacturing Co Ltd
    MGN1S1212MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-12V GAN Visit Murata Manufacturing Co Ltd
    MGN1S0508MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 5-8V GAN Visit Murata Manufacturing Co Ltd
    MGN1S0512MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 5-12V GAN Visit Murata Manufacturing Co Ltd

    CALCULATING POWER DISSIPATION Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    TrC-55

    Abstract: DDR266 DDR333 DDR400 PC2700 PC3200 TN4603
    Text: TN-46-03 – Calculating DDR Memory System Power Introduction Technical Note Calculating Memory System Power for DDR Introduction Today’s system designer is concerned about the power used by the main memory in the system. Whether it is calculating battery life for a portable application, planning cooling


    Original     		TN-46-03 09005aef807a795b/Source: 09005aef807a7967 TN4603 TrC-55 DDR266 DDR333 DDR400 PC2700 PC3200 PDF

    smd-transistor DATA BOOK

    Abstract: smd transistor book smd transistor fh SIPMOS application note smd transistors SMD BOOK BOOK SMD
    Text: APPLICATIONS POWER SEMICONDUCTORS Jürgen Gladigau ● Otto Voggenreiter Power transistors in SMD packages: Calculating power dissipation the right way More and more power transistors are being offered in surface mount variants of power packages. When calculating maximum permissible power dissipation,


    Original     		O-251 OT-223 smd-transistor DATA BOOK smd transistor book smd transistor fh SIPMOS application note smd transistors SMD BOOK BOOK SMD PDF

    smd-transistor DATA BOOK

    Abstract: power mosfet smd package smd-transistor -1.am MOSFET SMD package soldering fundamentals smd transistor book SMD 251 transistor A 9 smd transistor mosfet SMD SMD books
    Text: Power Transistors in SMD Packages: Calculating Power Dissipation the Right Way More and more power transistors are being offered in surface mount variants of power packages. When calculating maximum permissible power dissipation, designers must take note of the different definitions of this parameter for SMD and power packages. When


    Original     		O-251 OT-223 smd-transistor DATA BOOK power mosfet smd package smd-transistor -1.am MOSFET SMD package soldering fundamentals smd transistor book SMD 251 transistor A 9 smd transistor mosfet SMD SMD books PDF

    DDR2-400

    Abstract: DDR2-533 PC2-4300 1167m
    Text: TN-47-04: Calculating Memory System Power for DDR2 Introduction Technical Note Calculating Memory System Power for DDR2 Introduction This technical note details how DDR2 SDRAM consumes power, and it provides the tools system designers need to estimate power consumption in a given system. In addition to


    Original     		TN-47-04: DDR2-533 09005aef812507c7/09005aef81257459 TN4704 DDR2-400 DDR2-533 PC2-4300 1167m PDF

    Untitled

    Abstract: No abstract text available
    Text: TN-49-04: Calculating Memory System Power for RLDRAM II Introduction Technical Note Calculating Memory System Power for RLDRAM II Introduction With a unique eight-bank architecture optimized for high frequency and ultra-low random access times, Micron’s reduced latency DRAM RLDRAM® II addresses the high


    Original     		TN-49-04: 09005aef82b1a1ad/Source: 09005aef82b1a4a7 TN4904 PDF

    ACTEL A1010

    Abstract: A1460 A1020 transistor AC109 A1010 A1415 A1425 A1440 actel a1240
    Text: Application Note AC109 Predicting the Power Dissipation of Actel FPGAs Introduction Calculating the power dissipation of field programmable gate arrays FPGAs is similar to using the calculations for other CMOS ASIC devices, such as gate arrays and standard cells.


    Original     		AC109 A1280/1280XL A1240/1240XL A1225/1225XL 1200XL ACTEL A1010 A1460 A1020 transistor AC109 A1010 A1415 A1425 A1440 actel a1240 PDF

    AN-5019

    Abstract: transistor PDdc
    Text: Preliminary Fairchild Semiconductor Application Note December 2000 Revised January 2001 LVDS: Calculating Driver/Receiver Power Preliminary Introduction (2) To insure system functionality and reliability many board and system level designs must employ power budgets. The


    Original     		PDF

    LVDS

    Abstract: UT54LVDS032LV/E ut54lvds031 unused inputs UT54LVDM055LV 5962-98651 STR-V WD04 WD06 WD08 UT54LVDM031LV
    Text: Aeroflex Colorado Springs Application Note AN-LVDS-002-01 Calculating Power Dissipation on LVDS Driver/Receiver Family Table 1: Cross Reference of Applicable Products Manufacturer Part SMD # Number 3.3-VOLT QUAD DRIVER UT54LVDS031LV/E 5962-98651 Product Name:


    Original     		AN-LVDS-002-01 UT54LVDS031LV/E UT54LVDS032LV/E UT54LVDS032LVT UT54LVDM031LV UT54LVDM055LV WD28and LVDS UT54LVDS032LV/E ut54lvds031 unused inputs UT54LVDM055LV 5962-98651 STR-V WD04 WD06 WD08 UT54LVDM031LV PDF

    transistor A1010

    Abstract: 1280xl 16-BIT SYNCHRONOUS COUNTER actel a1240
    Text: Appl i cat i on N ot e Predicting the Power Dissipation of Actel FPGAs Introduction Calculating the power dissipation of field programmable gate arrays FPGAs is similar to using the calculations for other CMOS ASIC devices, such as gate arrays and standard cells.


    Original     		frequencie373 1200XL transistor A1010 1280xl 16-BIT SYNCHRONOUS COUNTER actel a1240 PDF

    transistor A1010

    Abstract: A1415 A1460 A1010 A1425 A1440 transistor a1020 actel a1240 LINEAR/525/OS/LM01A/ics 0623
    Text: Appl i cat i o n N ot e Predicting the Power Dissipation of Actel FPGAs Introduction Calculating the power dissipation of field programmable gate arrays FPGAs is similar to using the calculations for other CMOS ASIC devices, such as gate arrays and standard cells.


    Original     		A1280/1280XL A1240/1240XL A1225/1225XL 1200XL transistor A1010 A1415 A1460 A1010 A1425 A1440 transistor a1020 actel a1240 LINEAR/525/OS/LM01A/ics 0623 PDF

    vlt 2900

    Abstract: No abstract text available
    Text: TECHNICAL INFORMATION SOFTWARE FOR CALCULATING POWER CAPABILITY FOR MLC CERAMIC CAPACITORS by John D. Prymak Olean Advanced Products Division AVX Corporation Abstract: The power capability of the ceramic MLC capacitor is a rather complex association of design, material, ambient temperature,


    Original     		infor80-539-1501 S-SCPC00M301-R vlt 2900 PDF

    CWda03

    Abstract: DesignWare otg DesignWare Hi-Speed USB On-The-Go Controller M25PXX designware usb otg DesignWare SPI AS352X ARM922TDMI PL172 XPC-4 video scan converter unit
    Text: austriamicrosystems AS3524 C21 / C22 Data Sheet, Confidential Datasheet, Confidential AS3524 Advanced Audio Processor System å 1 Description The AS3524 implements a highly flexible and fully integrated digital audio processor system combining strong calculating power and


    Original     		AS3524 AS3524 32-Bit ARM922T CWda03 DesignWare otg DesignWare Hi-Speed USB On-The-Go Controller M25PXX designware usb otg DesignWare SPI AS352X ARM922TDMI PL172 XPC-4 video scan converter unit PDF

    Toshiba NAND BGA 224

    Abstract: BGA224
    Text: AS3525-A/-B C22O22 Data Sheet, Confidential å Datasheet, Confidential AS3525 Advanced Audio Processor System 1 Description This highly flexible and fully integrated audio processor system AS3525 combines strong calculating power, high performance audio features with system power management options for battery


    Original     		AS3525-A/-B C22O22 AS3525 AS3525) 32-Bit 200MIPS Toshiba NAND BGA 224 BGA224 PDF

    CWda03

    Abstract: No abstract text available
    Text: AS3524 C21 / C22 Data Sheet, Confidential austriamicrosystems Datasheet, Confidential AS3524 Advanced Audio Processor System å 1 Description The AS3524 implements a highly flexible and fully integrated digital audio processor system combining strong calculating power and


    Original     		AS3524 AS3524 32-Bit ARM922T CWda03 PDF

    DesignWare Hi-Speed USB On-The-Go Controller

    Abstract: designware usb otg XPC-4 video scan converter unit DesignWare otg CWda03 AS3524 M25PXX PL172 arm9tdmi basic block diagram DesignWare SPI
    Text: austriamicrosystems AS3524 C21 / C22 Data Sheet, Confidential Datasheet, Confidential AS3524 Advanced Audio Processor System å 1 Description The AS3524 implements a highly flexible and fully integrated digital audio processor system combining strong calculating power and


    Original     		AS3524 AS3524 32-Bit ARM922T DesignWare Hi-Speed USB On-The-Go Controller designware usb otg XPC-4 video scan converter unit DesignWare otg CWda03 M25PXX PL172 arm9tdmi basic block diagram DesignWare SPI PDF

    BGA144 13x13 package

    Abstract: DesignWare Hi-Speed USB On-The-Go Controller SCR trickle charger circuit trickle battery charger circuit using scr 7476 up down counter Palmchip designware usb otg IHI-0011A M25PXX hitachi elko
    Text: AS3525-A/-B C22O22 Data Sheet, Confidential å Datasheet, Confidential AS3525 Advanced Audio Processor System 1 Description This highly flexible and fully integrated audio processor system AS3525 combines strong calculating power, high performance audio features with system power management options for battery


    Original     		AS3525-A/-B C22O22 AS3525 AS3525) 32-Bit 200MIPS BGA144 13x13 package DesignWare Hi-Speed USB On-The-Go Controller SCR trickle charger circuit trickle battery charger circuit using scr 7476 up down counter Palmchip designware usb otg IHI-0011A M25PXX hitachi elko PDF

    AN-5019

    Abstract: CV2f
    Text: Fairchild Semiconductor Application Note July 2002 Revised July 2002 LVDS: Calculating Driver/Receiver Power Introduction 2 To insure system functionality and reliability many board and system level designs must employ power budgets. The cumulative power dissipated by each device in the application contributes to the total power dissipated by the system.


    Original     		PDF

    HV9113

    Abstract: HV9120 VN2460
    Text: HV91 Series Application Note AN-H21 Calculating Power Dissipation and Supply Current in HV91 Series Parts Part I The internal circuitry of the HV9110/11/12/13 and HV9120/23 uses very little current by itself—generally less than 1mA. However, when driving a large MOSFET very fast, considerable


    Original     		AN-H21 HV9110/11/12/13 HV9120/23 IRF630, 10-9F 000Hz HV9113 HV9120 VN2460 PDF

    HV9120

    Abstract: No abstract text available
    Text: HV91 Series Application Note AN-H21 Calculating Power Dissipation and Supply Current in HV91 Series Parts Part I The internal circuitry of the HV9110/11/12/13 and HV9120/23 uses very little current by itself—generally less than 1mA. However, when driving a large MOSFET very fast, considerable


    Original     		AN-H21 HV9110/11/12/13 HV9120/23 IRF630, 10-9F 000Hz HV9120 PDF

    Equivalent Series Resistance ESR of Capacitors

    Abstract: difference between smps dc-dc converter AN4266 capacitor polyester MPP Mohan SMPS MOSFET smps wires APP4266 MAX1556 smps dc-dc circuits
    Text: Maxim > App Notes > Power-Supply Circuits Keywords: Switchmode, DC-DC, efficiency, battery life, step-down, DC-DC Converter, power supply Dec 23, 2008 APPLICATION NOTE 4266 An Efficiency Primer for Switch-Mode, DC-DC Converter Power Supplies Abstract: Techniques for calculating and predicting efficiency losses in each component of a switch-mode power supply SMPS are


    Original     		com/an4266 MAX1556: AN4266, APP4266, Appnote4266, Equivalent Series Resistance ESR of Capacitors difference between smps dc-dc converter AN4266 capacitor polyester MPP Mohan SMPS MOSFET smps wires APP4266 MAX1556 smps dc-dc circuits PDF

    Untitled

    Abstract: No abstract text available
    Text: BACK HV91 Series Application Note AN-H21 Calculating Power Dissipation and Supply Current in HV91 Series Parts Part I The internal circuitry of the HV9110/11/12/13/14 and HV9120/23 uses very little current by itself—generally less than 1mA. However, when driving a large MOSFET very fast, considerable


    Original     		AN-H21 HV9110/11/12/13/14 HV9120/23 IRF630 750KHz. IRF630, 10-9F 000Hz PDF

    HV9113

    Abstract: HV9120
    Text: HV91 Series Application Note AN-H21 3 Calculating Power Dissipation and Supply Current in HV91 Series Parts Part I The internal circuitry of the HV9110/11/12/13/14 and HV9120/23 uses very little current by itself—generally less than 1mA. However, when driving a large MOSFET very fast, considerable


    Original     		AN-H21 HV9110/11/12/13/14 HV9120/23 IRF630 750KHz. IRF630, 10-9F 000Hz HV9113 HV9120 PDF

    AN-H21

    Abstract: irf630 mosfet data sheet HV9120 IC MOSFET QG IRF630 irf630 equivalent HV9113
    Text: HV91 Series Application Note AN-H21 Calculating Power Dissipation and Supply Current in HV91 Series Parts Part I The internal circuitry of the HV9110/11/12/13/14 and HV9120/23 uses very little current by itself—generally less than 1mA. However, when driving a large MOSFET very fast, considerable


    Original     		AN-H21 HV9110/11/12/13/14 HV9120/23 IRF630 750KHz. IRF630, 10-9F 000Hz AN-H21 irf630 mosfet data sheet HV9120 IC MOSFET QG irf630 equivalent HV9113 PDF

    HV9113

    Abstract: AN-H21 IC MOSFET QG VN2460 545u 0024W
    Text: AN-H21 Application Note Calculating Power Dissipation and Supply Current in HV91 Series Parts Part I First, the operational VDD the IC will use should be known. This is generally a parameter decided upon by the designer for his convenience. Once VDD is known, it is used to find the


    Original     		AN-H21 HV9110/11/12/13 HV9120/23 HV9113 AN-H21 IC MOSFET QG VN2460 545u 0024W PDF